Pteridine fluorescence for age determination of Anopheles mosquitoes

Summary The age structure of mosquito populations is of great relevance to understanding the dynamics of disease transmission and in monitoring the success of control operations. Unfortunately, the ovarian dissection methods currently available for determining the age of adult mosquitoes are technically difficult, slow and may be of limited value, because the proportion of diagnostic ovarioles in the ovary declines with age. By means of reversed‐phase HPLC this study investigated the malaria vectors Anopheles gambiae and An. stephensi to see if changes in fluorescent pteridine pigments, which have been used in other insects to determine the age of field‐caught individuals, may be useful for age determination in mosquitoes. Whole body fluorescence was inversely proportional to age ( P < 0.001, r 2  > 91%) up to 30 days postemergence, with the regression values: y  = 40580–706 x for An. gambiae , and y  = 52896–681 x for An. stephensi. In both species the main pteridines were 6‐biopterin, pterin‐6‐carboxylic acid and an unidentified fluorescent compound. An. gambiae had only 50–70% as much fluorescence as An. stephensi , and fluorescent compounds were relatively more concentrated in the head than in the thorax (ratios 1 : 0.8 An. gambiae; 1 : 0.5 An. stephensi ). The results of this laboratory study are encouraging. It seems feasible that this simpler and faster technique of fluorescence quantification could yield results of equivalent accuracy to the interpretation of ovarian dissection. A double‐blind field trial comparing the accuracy of this technique to marked, released and recaptured mosquitoes is required to test the usefulness of the pteridine method in the field.